DE837276C - Laminated magnet for electromagnetic devices, especially for electromagnetic signal listeners - Google Patents

Description

In electromagnetic devices, such as signal horns, it is known to make the magnetic core receiving the coil circular and accordingly to wind the coil as a round ring. The magnetic cores designed in this way are made of solid material and have an unfavorable magnetic return path. The advantages of a magnet made of individual lamellas over a magnet made of solid material are well known in electrical engineering. In order to produce magnets from lamellas, the core was not circular, but square, with the coils being placed in parallel grooves. A favorable shape is the core, which is square in cross-section. Now, however, the circumference of a square core is related to that of a circular core with the same cross-section as 4 to 3.55. The additional cost of copper winding for the coil corresponds to this ratio.

The invention relates to a magnet that is cut from E-shaped There is lamellae, the spool receiving grooves being formed in the shape of a circular ring and in which the central part forming the core for the coil in cross section is kept circular. The individual lamellar plates are preferably 'here Held different in their thickness and individual groups of sheets of the same length cut, but maintaining a cylindrical body shape that the Winding a circular coil allows.

In the drawing, the invention is illustrated, for example, namely Fig. i shows a plan view of a magnet in the usual way Embodiment with a square core in cross section; Fig. 2 is a side view with the coil in section, Figure 3 is a plan view of the magnet according to the invention, Fig. 4 shows a version with different lamellar plates.

According to Fig. I, the core a of the magnet is square in cross section held. In the case of square cores, this design is to be regarded as favorable. According to the invention, the cross section of the core b (Fig. 3) is circular. The scope a square is related to that of a circle of the same area as 4 to 3.55 equal to 1.1267 to i. The wire lengths of the two behave accordingly Coils c and d. The need for winding material with a square core is 12.670 / 0 higher.

Electromagnetic signal horns are now also known, in which the individual slats are kept different in their thickness. Figure 4 shows the application of the invention to such an embodiment. The central lamella f is made so thick that it is formed at the same time as a retaining bolt, not shown. The side plates g are also thicker than the inner plates h, but are kept narrower in their width than these. The inner sheets h can be cut to the same length so that the sheets f, g, h form the basic shape of a cylinder, which means that the coil i can be wound as a circular ring.

As the riveting of the magnetic sheets made from different cuts leads to difficulties because of the small tolerances in the rivet holes the magnet package according to the embodiment of the invention shown in Figure 4 is not riveted, but in a manner known per se into the mass of the molded material Enclosed embedded.

If, in an embodiment according to Fig: 3, you also have a larger Investing in tools and having to reckon with increased workload, this disadvantage is due to the saving on copper and the possibility of reducing the winding resistance to decrease, balanced again. In the arrangement according to the invention it is possible to provide a low resistance winding in a manner similar to that of square magnet with a constricted core. In the case of an embodiment according to Fig.4 the aforementioned disadvantages of increased workload continue.

Claims (4)

: PATEN TANSPRC (1.111: i. Laminated magnet - for electromagnetic devices, especially for electromagnetic horns, with E-shaped cut lamellar plates, characterized in that the groove receiving the round coil is circular or approximately circular and the lamellar core is round or approximately has a round cross-section. 2. Laminated magnet after Claim i, characterized in that the slats are cut so that the Sides of the central core and the sides of the poles facing the coil in the shape of a circular arc or run approximately in the shape of a circular arc. 3. Laminated magnet according to the claims i and 2, characterized in that the individual lamellar plates in their thickness are designed differently, in such a way that the middle plate formed as a retaining bolt and .the side panels are thicker and the intermediate panels are the same or are cut in groups of the same length. 4. Laminated magnet after one of the Claims i to 3, characterized in that the disk pack is known per se Way without fastening the sheets to each other in the mass of a molded housing is embedded.